CN218074542U

CN218074542U - Improved steam baffle structure

Info

Publication number: CN218074542U
Application number: CN202222105898.1U
Authority: CN
Inventors: 郭建刚; 谢宏泽
Original assignee: Guangdong Xinbao Electrical Appliances Holdings Co Ltd
Current assignee: Guangdong Xinbao Electrical Appliances Holdings Co Ltd
Priority date: 2022-08-11
Filing date: 2022-08-11
Publication date: 2022-12-20
Anticipated expiration: 2032-08-11

Abstract

The utility model relates to the technical field of coffee machines, in particular to an improved steam baffle structure; the powder grinding machine comprises a machine body, wherein a grinding assembly is arranged in the machine body, a powder receiving device which is in matched connection with the machine body is arranged below the grinding assembly, and a powder outlet is formed in the grinding assembly; an elastic sealing ring is arranged on the powder outlet, a guider is arranged between the powder outlet and the powder receiving device, and a baffle is arranged on the guider; the baffle can reciprocate on the guide along the transverse direction, and when the baffle moves below the powder outlet, the guide can drive the baffle to move upwards so as to be close to the powder outlet, so that the baffle is attached to the elastic sealing ring on the powder outlet; the utility model discloses an improved generation steam baffle structure, compared with the prior art, very big simplification part structure guarantees the leakproofness of meal outlet, prevents that steam from flowing back in grinding assembly, can effectively promote coffee machine product reliability.

Description

Improved steam baffle structure

Technical Field

The utility model relates to a coffee machine technical field indicates an improved generation steam baffle structure very much.

Background

Bean grinding coffee machine, i.e. coffee grinder and drip coffee machine are combined into one body. Coffee beans enter the filter through the powder outlet through the grinding channel, and in the brewing process, the powder outlet is required to be reliably closed, so that steam generated in brewing is prevented from entering the coffee grinding system through the powder outlet. When solving this technical problem, the similar coffee machine on the existing market sets up a sealing washer at the powder outlet mostly, then seal the sealing washer that sets up in the powder outlet through a adjustable fender that moves along the fixed track, adjustable fender's moving means has rotary motion or linear motion, this kind of adjustable fender that has now only moves along the direction that is on a parallel with sealing washer sealing surface, so adjustable fender and sealing washer sealing surface combine, can not the pre-compaction too big, otherwise adjustable fender's removal will cause the damage or shift to the sealing washer, so often solve through the less protruding bone position of several rings of sealing washer sealing surface design, but all do not to completely reliably seal.

Chinese patent CN10583213A discloses a device for preventing steam backflow for bean-grinding coffee machine, including the organism and the filter that mutually support and connect, be provided with the mill unit in the organism, be provided with out the powder passageway on the mill unit, the play powder mouth and the filter intercommunication each other of going out the powder passageway, its characterized in that: a support is arranged between the powder outlet of the powder outlet channel and the filter, a sealing ring, a baffle and a push plate are sequentially arranged on the support, wherein the sealing ring is arranged at the mutual communication position between the powder outlet and the filter, the push plate is movably arranged on the support, and the baffle is arranged between the push plate and the sealing ring and is in linkage fit with the push plate; the push plate is movably arranged on the support, the baffle is driven to move back and forth on the support in the moving process, and the baffle is matched with the sealing ring in the back and forth moving process so as to close or open the powder outlet of the powder outlet channel.

The advantage of this kind of design can be relatively steady extrude the meal outlet sealing washer, becomes a segmentation technique and is two segmentations, and first section concora crush promptly, and the baffle is upwards pushed up to the second section, makes the normal direction oppression of baffle at the sealing washer surface. However, the double design of the push plate and the baffle plate is used for realizing the effect, and the bad effect of the realization is obvious: namely, in the working process of the push plate, the baffle and the grinder, thinner coffee powder enters between the push plate and the baffle and is difficult to clean, and the coffee powder is adhered between the push plate and the baffle over time, so that bacteria can be nourished, and the mechanism can also fail.

Accordingly, there is a need for improvements and developments in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rational in infrastructure, simple compact's improved generation steam baffle structure to prior art's defect and not enough.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model relates to an improved steam baffle structure, which comprises a machine body, wherein a grinding component is arranged in the machine body, a powder receiving device which is matched and connected with the machine body is arranged below the grinding component, and a powder outlet is arranged on the grinding component; an elastic sealing ring is arranged on the powder outlet, a guider is arranged between the powder outlet and the powder receiving device, and a baffle is arranged on the guider; the baffle can be followed horizontal reciprocating motion on the director, and when the baffle moved the meal outlet below, thereby the director can drive baffle upward displacement and press close to the meal outlet, and then make baffle and the setting of laminating of the elastic seal circle on the meal outlet. The movement track of steerable baffle of director, baffle along horizontal reciprocating motion on the director, when the baffle removed and was in powder outlet below to powder outlet, thereby the director promotes the baffle and upwards displaces and press close to the powder outlet, thereby the baffle covers and extrudees the elasticity sealing washer and makes the powder outlet seals, prevents that steam from going out powder outlet entering grinding unit. Otherwise, open when the baffle reverse movement go out the powder mouth, the baffle is at first downward displacement under the effect of elastic sealing ring, prevents that the baffle process of falling back from causing wearing and tearing to elastic sealing ring, and whole mechanism sets up simple compactness, can effectively reduction in production cost.

According to the scheme, the guider comprises two side sliding rails, the lower ends of the side sliding rails are provided with transverse guide plates, and the two side sliding rails are symmetrically arranged on two sides of the powder outlet; the baffle is movably arranged between the two side slide rails, two ends of the baffle are erected on the corresponding transverse guide plates respectively, and lifting structures are arranged between the two ends of the baffle and the corresponding transverse guide plates. The side slide rails and the transverse guide plate are of L-shaped integrated structures, the two side slide rails are oppositely arranged on two sides of the powder outlet, the transverse guide plate on the two side slide rails is used as a supporting structure of the baffle plate, the baffle plate is arranged between the two side slide rails, the baffle plate can transversely translate along the guider, and the baffle plate can move on the guider to a certain degree along the vertical direction. When the baffle moves to the lower part of the powder outlet, the guider enables the baffle to move upwards through the lifting structure, and then the baffle cover is arranged on the elastic sealing ring on the powder outlet and is abutted against the elastic sealing ring.

According to the scheme, the lifting structure comprises a first wedge block and a second wedge block, the first wedge block is arranged on each of the two transverse guide plates, and the second wedge blocks are arranged at the two ends of each baffle plate; and the first wedge block and the second wedge block are respectively provided with a leading-in inclined plane which is matched with each other. First voussoir and the cooperation of second voussoir are used for realizing that the baffle produces vertical displacement when reciprocating motion on the director, and when the baffle moved out powder mouthful below along two side slide rails, the second voussoir at baffle both ends met with first voussoir, make the baffle lifting produce certain displacement through the cooperation on leading-in inclined plane, and then make the baffle conflict elastic sealing circle and apply certain pressure, guarantee the leakproofness of powder mouth, prevent that steam from getting into grinding assembly.

According to the scheme, on the vertical projection surface, the first wedge block and the powder outlet are arranged in an up-down corresponding mode, and the second wedge block is arranged in the middle of the baffle. The movement stroke of the baffle on the guider is divided into two sections, the first wedge block and the second wedge block are critical points of the two sections of strokes when in contact, wherein the farthest position of the baffle from the powder outlet is taken as a starting point, the movement process of the baffle between the starting point and the critical points is transverse translation, and the baffle is not in contact with the elastic sealing ring in the displacement of the section, so that the stability and smoothness of the movement of the baffle can be ensured. When the baffle plate moves towards the powder outlet and passes through a critical point, the first wedge block and the guide-in inclined plane on the second wedge block are mutually matched, so that the baffle plate ascends by a certain stroke height, the stroke height is the sum of the thicknesses of the first wedge block and the second wedge block, the second wedge block is superposed on the first wedge block until the guide-in inclined planes on the first wedge block and the second wedge block are staggered, and at the moment, the baffle plate is covered and extrudes the elastic sealing ring to completely seal the powder outlet.

According to the scheme, a partition plate is arranged between the grinding assembly and the powder collector, a powder outlet is formed in the partition plate, and the grinding assembly is connected with the powder outlet in a matched mode; the two side slide rails are arranged below the partition board and fixedly connected with the partition board, a driving mechanism is arranged on the partition board, and the driving mechanism is connected with one end of the baffle in a matched mode so as to drive the baffle to move on the two guides in a transverse reciprocating mode. Partition panel shaping or fixing on the organism, the partition panel is used for the installation to set up director, baffle and actuating mechanism, wherein grinding assembly sets up on the partition panel, and the director setting is at partition panel to lower, and grinding assembly has out the powder passageway and goes out the powder access connection in order to form out the powder mouth on the partition panel, from this, the fixed setting of elastic sealing ring is on the bottom surface of partition panel and centers on it sets up to go out the powder mouth. Two side slide rails of director are fixed to be set up on the bottom surface of partition panel, the baffle transversely is for thereby sealing between two side slide rails the powder outlet or open the powder outlet prevents that steam from getting into grinding component from the powder outlet.

According to the scheme, the driving mechanism comprises a driving motor, a swing arm is arranged between the driving motor and the baffle, one end of the swing arm is fixedly connected with an output shaft of the driving motor, and the other end of the swing arm is rotatably connected with one end of the baffle. Preferably, an output shaft of the driving motor is of a square head structure, one end of the swing arm is fixedly connected with the output shaft of the driving motor through a square hole, the driving motor drives the swing arm to rotate, and the other end of the swing arm drives the baffle to perform reciprocating translation on the guider through reciprocating rotation.

According to the scheme, the other end of the swing arm is provided with a rotary hole, one end of the baffle is provided with an anchor post, and the anchor post is arranged in the rotary hole in a penetrating manner so as to enable the swing arm to be rotatably connected with the baffle; the upper end of the anchor post is provided with a cap, and the distance between the cap and the baffle is larger than the thickness of the swing arm. The baffle plate moves up and down on the guider, the baffle plate is in rotary connection with the swing arm through the anchor post, and the anchor post is matched with the rotary hole to enable the baffle plate to move up and down along the anchor post, so that the baffle plate can move at two stages.

According to the scheme, two stroke switches which are spaced from each other are arranged on the partition panel, a travel stop executing rod matched with the stroke switches is arranged at one end of the swing arm, and the two stroke switches are respectively electrically connected with a control circuit of the driving motor. When the driving motor drives the swing arm to operate, the motion stroke of the baffle plate is controlled through the cooperation of the running-stopping executing rod and the travel switch, and the travel switch is a contact switch.

The utility model discloses an improved generation steam baffle structure, compared with the prior art, very big simplification part structure guarantees the leakproofness of meal outlet, prevents that steam from flowing back in grinding assembly, can effectively promote coffee machine product reliability.

Drawings

FIG. 1 is a schematic view of a partial cross-sectional structure of the whole machine of the present invention;

FIG. 2 is a schematic view of the grinding assembly and guide of the present invention;

FIG. 3 is a schematic view of the structure of the guide and the baffle;

FIG. 4 is a schematic view of the bottom structure of the baffle of the present invention;

fig. 5 is a schematic structural view of the state that the baffle plate closes the air outlet;

FIG. 6 is a schematic view of the critical point state of the baffle stroke of the present invention;

fig. 7 is a schematic structural view of the state that the air outlet is opened by the baffle plate of the present invention;

FIG. 8 is a schematic view of the driving motor driving the baffle according to the present invention;

fig. 9 is a schematic diagram of the principle of the driving motor and the travel switch of the present invention.

In the figure:

1. a body; 2. a grinding assembly; 3. a guide; 4. a baffle plate; 11. a powder receiving device; 12. a partition panel; 13. a drive motor; 14. swinging arms; 15. rotating the hole; 16. a travel switch; 17. a travel stop actuating lever; 21. a powder outlet; 22. an elastic sealing ring; 31. a side slide rail; 32. a transverse guide plate; 33. a first wedge; 34. a second wedge; 35. leading in an inclined plane; 41. an anchor post; 42. and (4) a cap.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1-9, the improved steam baffle structure of the present invention comprises a machine body 1, a grinding assembly 2 is arranged in the machine body 1, a powder receiving device 11 cooperatively connected with the machine body 1 is arranged below the grinding assembly 2, and a powder outlet 21 is arranged on the grinding assembly 2; an elastic sealing ring 22 is arranged on the powder outlet 21, a guider 3 is arranged between the powder outlet 21 and the powder receiving device 11, and a baffle 4 is arranged on the guider 3; baffle 4 can be along horizontal reciprocating motion on director 3, and when baffle 4 removed powder outlet 21 below, thereby director 3 can drive baffle 4 and upwards move and press close to powder outlet 21, and then make baffle 4 and the laminating setting of the elastic sealing ring 22 on the powder outlet 21. The controllable motion trail of baffle 4 of director 3, baffle 4 are along horizontal reciprocating motion on director 3, and when baffle 4 removed and was in powder outlet 21 below to powder outlet 21, director 3 promoted baffle 4 and upwards displaced thereby press close to powder outlet 21, thereby baffle 4 covers and extrudes elasticity sealing washer 22 and makes powder outlet 21 seals, prevents that steam from powder outlet 21 from getting into grinding component 2. On the contrary, when the baffle 4 moves reversely, the powder outlet 21 is opened, the baffle 4 firstly moves downwards under the action of the elastic sealing ring 22, the abrasion of the elastic sealing ring 22 caused by the retraction process of the baffle 4 is prevented, the whole mechanism is simple and compact in arrangement, and the production cost can be effectively reduced.

The guider 3 comprises two side slide rails 31, the lower ends of the side slide rails 31 are provided with transverse guide plates 32, and the two side slide rails 31 are symmetrically arranged at two sides of the powder outlet 21; baffle 4 movably sets up between two side slide rails 31, and the both ends of baffle 4 are erect respectively on the horizontal baffle 32 that corresponds, and all are equipped with the lifting structure between the both ends of baffle 4 and the horizontal baffle 32 that corresponds. The side slide rails 31 and the transverse guide plates 32 are of an L-shaped integrated structure, the two side slide rails 31 are oppositely arranged on two sides of the powder outlet 21, the transverse guide plates 32 on the two side slide rails 31 serve as a supporting structure of the baffle 4, the baffle 4 is arranged between the two side slide rails 31, and therefore the baffle 4 can transversely translate along the guider 3, and the baffle 4 can displace to a certain extent along the vertical direction on the guider 3. When baffle 4 removed powder outlet 21 below, deflector 3 made baffle 4 upwards displacement through the lifting structure, and then made baffle 4 lid dress and set up on the elastic sealing ring 22 on the powder outlet 21 and contradict with it.

The lifting structure comprises a first wedge 33 and a second wedge 34, the first wedge 33 is arranged on each of the two transverse guide plates 32, and the second wedges 34 are arranged at the two ends of the baffle 4; the first wedge 33 and the second wedge 34 are provided with guiding inclined surfaces 35 which are matched with each other. First voussoir 33 and the cooperation of second voussoir 34 are used for realizing that baffle 4 produces vertical displacement when reciprocating motion on director 3, when baffle 4 moves out powder mouth 21 below along two side slide rails 31, the second voussoir 34 at baffle 4 both ends meets with first voussoir 33, cooperation through leading-in inclined plane 35 makes the 4 liftings of baffle produce certain displacement, and then make baffle 4 conflict elastic sealing ring 22 and exert certain pressure, guarantee out powder mouth 21's leakproofness, prevent that steam from getting into grinding unit 2.

On the vertical projection plane, the first wedge 33 and the powder outlet 21 are arranged corresponding to each other up and down, and the second wedge 34 is arranged in the middle of the baffle 4. The movement stroke of the baffle 4 on the guider 3 is divided into two sections, the first wedge 33 and the second wedge 34 are critical points of the two sections of strokes when in contact, wherein the farthest position of the baffle 4 from the powder outlet 21 is taken as a starting point, the movement process of the baffle 4 between the starting point and the critical points is transverse translation, and the baffle 4 is not in contact with the elastic sealing ring 22 in the displacement of the section, so that the stability and smoothness of the movement of the baffle 4 can be ensured. When the baffle plate 4 moves towards the powder outlet 21 and passes through a critical point, the first wedge 33 and the guiding inclined surface 35 on the second wedge 34 are mutually matched, so that the baffle plate 4 ascends by a certain stroke height which is the sum of the thicknesses of the first wedge 33 and the second wedge 34, the second wedge 34 is superposed on the first wedge 33 after the guiding inclined surfaces 35 on the first wedge 33 and the second wedge 34 are staggered, and at the moment, the baffle plate 4 covers and presses the elastic sealing ring 22 to completely seal the powder outlet 21.

A partition plate 12 is arranged between the grinding assembly 2 and the powder collector 11, a powder outlet 21 is formed in the partition plate 12, and the grinding assembly 2 is connected with the powder outlet 21 in a matching manner; the two side slide rails 31 are arranged below the partition board 12 and fixedly connected with the partition board 12, and a driving mechanism is arranged on the partition board 12 and is matched and connected with one end of the baffle 4 so as to drive the baffle 4 to move on the two guides 3 in a transverse reciprocating manner. Partition panel 12 shaping or fixing on organism 1, partition panel 12 are used for the installation to set up director 3, baffle 4 and actuating mechanism, wherein grinding assembly 2 sets up on partition panel 12, and director 3 sets up at partition panel 12 to down, and grinding assembly 2 has out the powder passageway and goes out the powder passageway and connect on partition panel 12 in order to form out powder mouth 21, from this, elastic sealing ring 22 is fixed to be set up on the bottom surface of partition panel 12 and centers on it sets up to go out powder mouth 21. The two side rails 31 of the guide 3 are fixedly arranged on the bottom surface of the partition plate 12, and the baffle 4 is transversely arranged between the two side rails so as to close the powder outlet 21 or open the powder outlet 21 and prevent steam from entering the grinding assembly 2 from the powder outlet 21.

The driving mechanism comprises a driving motor 13, a swing arm 14 is arranged between the driving motor 13 and the baffle 4, one end of the swing arm 14 is fixedly connected with an output shaft of the driving motor 13, and the other end of the swing arm 14 is rotatably connected with one end of the baffle 4. Preferably, an output shaft of the driving motor 13 is of a square head structure, one end of the swing arm 14 is fixedly connected with the output shaft of the driving motor 13 through a square hole, the driving motor 13 drives the swing arm 14 to rotate, and the other end of the swing arm 14 drives the baffle 4 to perform reciprocating translation on the guider 3 through reciprocating rotation.

A rotary hole 15 is formed in the other end of the swing arm 14, an anchor post 41 is arranged at one end of the baffle 4, and the anchor post 41 penetrates through the rotary hole 15 so that the swing arm 14 is rotatably connected with the baffle 4; the upper end of the anchor post 41 is provided with a cap 42, and the distance between the cap 42 and the baffle 4 is larger than the thickness of the swing arm 14. The baffle 4 is displaced up and down on the guider 3, the baffle 4 is rotationally connected with the swing arm 14 through the anchor post 41, and the anchor post 41 is matched with the rotary hole 15 to enable the baffle 4 to be displaced up and down along the anchor post 41, so that the baffle 4 can be displaced at two stages.

The partition board 12 is provided with two stroke switches 16 spaced from each other, one end of the swing arm 14 is provided with a travel stop executing rod 17 matched with the stroke switches 16, and the two stroke switches 16 are respectively electrically connected with a control circuit of the driving motor 13. When the driving motor 13 drives the swing arm 14 to operate, the motion stroke of the baffle 4 is controlled by the cooperation of the running-stopping executing rod 17 and the travel switch 1, and the travel switch 16 is a contact switch.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims

1. An improved steam baffle structure comprises a machine body, wherein a grinding assembly is arranged in the machine body, a powder receiving device which is connected with the machine body in a matched mode is arranged below the grinding assembly, and a powder outlet is formed in the grinding assembly; it is characterized in that the preparation method is characterized in that,

an elastic sealing ring is arranged on the powder outlet, a guider is arranged between the powder outlet and the powder receiving device, and a baffle is arranged on the guider;

the baffle can be along horizontal reciprocating motion on the director, and when the baffle moved the meal outlet below, thereby the director can drive baffle displacement upwards and press close to the meal outlet, and then make the baffle and go out the elastic sealing ring laminating setting on the meal outlet.

2. The improved steam baffle structure of claim 1,

the guider comprises two side slide rails, the lower ends of the side slide rails are provided with transverse guide plates, and the two side slide rails are symmetrically arranged on two sides of the powder outlet;

the baffle is movably arranged between the two side slide rails, two ends of the baffle are erected on the corresponding transverse guide plates respectively, and lifting structures are arranged between the two ends of the baffle and the corresponding transverse guide plates.

3. The improved steam baffle structure of claim 2,

the lifting structure comprises a first wedge block and a second wedge block, the first wedge blocks are arranged on the two transverse guide plates, and the second wedge blocks are arranged at the two ends of the baffle;

and the first wedge block and the second wedge block are respectively provided with a leading-in inclined plane which is matched with each other.

4. The improved steam baffle structure of claim 3,

on the vertical projection surface, the first wedge block and the powder outlet are arranged in an up-and-down corresponding mode, and the second wedge block is arranged in the middle of the baffle.

5. The improved steam baffle structure of any of claims 2-3,

a partition plate is arranged between the grinding assembly and the powder receiver, a powder outlet is formed in the partition plate, and the grinding assembly is connected with the powder outlet in a matched mode;

the two side slide rails are arranged below the partition board and fixedly connected with the partition board, a driving mechanism is arranged on the partition board, and the driving mechanism is connected with one end of the baffle in a matched mode so as to drive the baffle to move on the two guides in a transverse reciprocating mode.

6. The improved steam baffle structure of claim 5,

the driving mechanism comprises a driving motor, a swing arm is arranged between the driving motor and the baffle, one end of the swing arm is fixedly connected with an output shaft of the driving motor, and the other end of the swing arm is rotatably connected with one end of the baffle.

7. The improved steam baffle structure of claim 6,

the other end of the swing arm is provided with a rotary hole, one end of the baffle is provided with an anchor post, and the anchor post is arranged in the rotary hole in a penetrating manner so as to ensure that the swing arm is rotatably connected with the baffle;

the upper end of the anchor post is provided with a cap, and the distance between the cap and the baffle is larger than the thickness of the swing arm.

8. The improved steam baffle structure as claimed in claim 5, wherein the partition is provided with two spaced stroke switches, one end of the swing arm is provided with a stroke stop actuating rod matched with the stroke switches, and the two stroke switches are respectively electrically connected with the control circuit of the driving motor.